Mineralogia de solos e ambientes de sedimentação em manguezais do Estado de São Paulo / Soil mineralogy and sedimentary environment in mangroves of São Paulo State

Souza Júnior, Valdomiro Severino de

22 February 2006

Manguezais são formados por grupos de árvores e arbustos que se desenvolvem na zona de intermarés de regiões tropicais. Este ecossistema ao se estabelecer na interface do ambiente marinho e continental, apresenta sua formação relacionada com as flutuações relativas do nível do mar quaternário, através do preenchimento dos vales dos rios, margens de lagunas e baías com sedimentos tanto de origem continental como marinha. O conhecimento da distribuição de partículas e dos minerais constituintes da assembléia mineralógica dos solos em ambiente de planícies estuarinas, auxilia na compreensão de processos de sedimentação e geoquímica dentro dos estuários. O trabalho foi realizado nos manguezais distribuídos ao longo do litoral do Estado de São Paulo, e objetivou-se caracterizar os ambientes de sedimentação de acordo com a granulometria e o processo de evolução quaternária, determinar qualitativamente e semiquantitativamente a assembléia mineralógica e estudar em detalhe os tipos de esmectitas presentes nesses solos. Para tanto foram coletadas amostras de solos de 14 manguezais nas camadas de 0-20 e 60-80cm e de sedimento em suspensão do Rio Ribeira de Iguape, além de amostras de diferentes profundidades para datações. Determinaram-se as frações, argila, silte, areia total e 5 frações da areia, foram realizadas datações 14C por cintilação líquida e AMS na fração humina da matéria orgânica e por termoluminescência em grãos de quartzo. As análises mineralógicas foram realizadas na fração silte e argila e no sedimento em suspensão através de DRX, IV, MET, MEV com microanálise, ATD e ATG, realizou-se também o teste de Greene- Kelly para identificar o tipo de esmectitas presentes nesses solos. De acordo com os resultados obtidos, concluiu-se que os solos dos manguezais do Estado de São Paulo podem apresentar diferentes texturas desde arenosa até muito argilosa, freqüentemente contêm altos teores de silte e todos têm idade holocênica, oscilando entre 410 anos A.P. e 3.700 anos; a distribuição de partículas está relacionada à morfologia atual do estuário e à natureza dos sedimentos costeiros adjacentes; a assembléia mineralógica da fração fina dos solos é constituída de pirita, nontronita, caulinita, illita, gibbsita, quartzo, feldspato, e localmente ocorrem goethita, vermiculita, biotita, halloysita e anatásio; os minerais alóctones são de origem continental e marinha; a distinção entre os cenários geomorfológicos ao longo do litoral condiciona a distribuição de minerais, e ainda foi inferido que ocorre neoformação de esmectita e de caulinita, e que o processo de oxidação de matéria orgânica nesses solos pode estar utilizando o Fe3+ da nontronita como receptor de elétrons. / Mangroves are formed by groups of trees and shrubs that develop in the intertidal zone of tropical regions. This ecosystem to establish in the interface of both marine and continental environment, present its formation related to the sea-level fluctuations during the quaternary period, where the terrigenous and marine sediments are deposited in rivers valleys, edges of lagoons and bays. The knowledge of both particle distribution and minerals constituent of soils in estuarines areas, can aid to understand the processes of sedimentation and geochemistry in this site. This study was carried out with mangroves distributed along the São Paulo State coast, and aims to characterize the sedimentary environments in accordance with grain size and process of quaternary evolution, to determine qualitatively and semiquantitatively the mineralogical assemblage and to identify the smectites types in these soils. Samples were collected from 14 mangroves soils at the layers 0-20 and 60-80cm, and also was collected sediment in suspension of the Ribeira de Iguape River, and samples of different depths for dating. The clay, silt and total sand sizes and 5 sand fractions were determined, radiocarbon dating were carried out by liquid scintillation counting and accelerator mass spectrometry in humin fraction of the soil organic matter and by thermoluminescence of quartz grains. The mineralogical analyses were carried out by XRD, FTIR, TEM, SEM, DTA and GTA in silt and clay sizes and in the sediment in suspension, also was made the Greene-Kelly test to identify the smectites type. According to the results we concluded that the mangroves soils from São Paulo State have different textures varying from sandy up to very clay, also occuring high silt contents. All the mangroves are holocenic, with ages varying from 410 yr B.P. to 3,700 yr; the particle distribution is related to the current geomorphological setting of the estuary and the origin of coastal sediments. The mineralogical assemblage is constituted of pyrite, nontronite, kaolinite, illite, biotite, gibbsite, quartz, feldspars, and locally occurs goethite, vermiculite, halloysite and anatase; the aloctones minerals are from both the terrigenous and marine origin; the difference between geomorphological settings along the coastal plain rules mineral distribution, and still it was inferred the neoformation of esmectita and kaolinite and that the process of organic matter mineralization in these soils may be using Fe3+ from nontronite as an electron acceptor.

datação radiocarbônica

ecossistema de mangue

estuário

estuary

gênese do solo

granulometria

granulometry

mangrove ecosystems

mineralogia do solo

radiocarbon dating

sedimentodologia

sedimentology

soil genesis

soil mineralogy

termoluminescência

thermoluminescence

Transport, degradation and burial of organic matter released from permafrost to the East Siberian Arctic Shelf

Bröder, Lisa-Marie

January 2016

Permafrost soils in the Arctic store large quantities of organic matter, roughly twice the amount of carbon that was present in the atmosphere before the industrial revolution. This freeze-locked carbon pool is susceptible to thawing caused by amplified global warming at high latitudes. The remobilization of old permafrost carbon facilitates its degradation to carbon dioxide and methane, thereby providing a positive feedback to climate change. Accelerating coastal erosion in addition to projected rising river discharge with enhancing sediment loads are anticipated to transport increasing amounts of land-derived organic carbon (OC) to the Arctic Ocean. On its shallow continental shelves, this material may be remineralized in the water column or in the sediments, transported without being altered off shelf towards the deep sea of the Arctic Interior or buried in marine sediments and hence sequestered from the contemporary carbon cycle. The fate of terrigenous material in the marine environment, though offering potentially important mechanisms to either strengthen or attenuate the permafrost-carbon climate feedback, is so far insufficiently understood. In this doctoral thesis, sediments from the wide East Siberian Arctic Shelf, the world’s largest shelf-sea system, were used to investigate some of the key processes for OC cycling. A range of bulk sediment properties, carbon isotopes and molecular markers were employed to elucidate the relative importance of different organic matter sources, the role of cross-shelf transport and the relevance of degradation during transport and after burial. Overall, OC released from thawing permafrost constitutes a significant proportion of the sedimentary organic matter on the East Siberian Arctic Shelf. Two sediment cores from the inner and outer East Siberian Sea recorded no substantial changes in source material or clear trends in degradation status for the last century. With increasing distance from the coast, however, strong gradients were detected towards lower concentrations of increasingly reworked land-derived OC. The time spent during cross-shelf transport was consequently found to exert first-order control on degradation. Compound-specific radiocarbon dating on terrigenous biomarkers revealed a net transport time of ~4 000 years across the 600 km wide Laptev Sea shelf, yielding degradation rate constants for bulk terrigenous OC and specific biomarkers on the order of 2-4 kyr-1. From these results, the carbon flux released by degradation of terrigenous OC in surface sediments was estimated to be ~1.7 Gg yr-1, several orders of magnitude lower than what had been quantified earlier for dissolved and particulate OC in the water column. Lower oxygen availability and close associations with the mineral matrix may protect sedimentary OC from remineralization and thereby weaken the permafrost-carbon feedback to present climate change. / <p>At the time of the doctoral defense, the following papers were unpublished and had a status as follows: Paper 3: Submitted. Paper 4: Manuscript.</p>

organic carbon

marine sediments

East Siberian Sea

Laptev Sea

cross-shelf transport

degradation rate constants

carbon isotopes

terrestrial biomarkers

HMW wax lipids

lignin phenols

compound-specific radiocarbon analysis

Impact of residential wood combustion on urban air quality

Krecl, Patricia

January 2008

<p>Wood combustion is mainly used in cold regions as a primary or supplemental space heating source in residential areas. In several industrialized countries, there is a renewed interest in residential wood combustion (RWC) as an alternative to fossil fuel and nuclear power consumption. The main objective of this thesis was to investigate the impact of RWC on the air quality in urban areas. To this end, a field campaign was conducted in Northern Sweden during wintertime to characterize atmospheric aerosol particles and polycyclic aromatic hydrocarbons (PAH) and to determine their source apportionment.</p><p>A large day-to-day and hour-to-hour variability in aerosol concentrations was observed during the intensive field campaign. On average, total carbon contributed a substantial fraction of PM10 mass concentrations (46%) and aerosol particles were mostly in the fine fraction (PM1 accounted for 76% of PM10). Evening aerosol concentrations were significantly higher on weekends than on weekdays which could be associated to the use of wood burning for recreational purposes or higher space heat demand when inhabitants spend longer time at home. It has been shown that continuous aerosol particle number size distribution measurements successfully provided source apportionment of atmospheric aerosol with high temporal resolution. The first compound-specific radiocarbon analysis (CSRA) of atmospheric PAH demonstrated its potential to provide quantitative information on the RWC contribution to individual PAH. RWC accounted for a large fraction of particle number concentrations in the size range 25-606 nm (44-57%), PM10 (36-82%), PM1 (31-83%), light-absorbing carbon (40-76%) and individual PAH (71-87%) mass concentrations.</p><p>These studies have demonstrated that the impact of RWC on air quality in an urban location can be very important and largely exceed the contribution of vehicle emissions during winter, particularly under very stable atmospheric conditions.</p>

residential wood combustion

air quality

aerosols

black carbon

polycyclic aromatic hydrocarbons

particulate matter

particle size distributions

source apportionment

positive matrix factorization

compound-specific radiocarbon analysis

Earth sciences

Geovetenskap

Impact of residential wood combustion on urban air quality

Krecl, Patricia

January 2008

Wood combustion is mainly used in cold regions as a primary or supplemental space heating source in residential areas. In several industrialized countries, there is a renewed interest in residential wood combustion (RWC) as an alternative to fossil fuel and nuclear power consumption. The main objective of this thesis was to investigate the impact of RWC on the air quality in urban areas. To this end, a field campaign was conducted in Northern Sweden during wintertime to characterize atmospheric aerosol particles and polycyclic aromatic hydrocarbons (PAH) and to determine their source apportionment. A large day-to-day and hour-to-hour variability in aerosol concentrations was observed during the intensive field campaign. On average, total carbon contributed a substantial fraction of PM10 mass concentrations (46%) and aerosol particles were mostly in the fine fraction (PM1 accounted for 76% of PM10). Evening aerosol concentrations were significantly higher on weekends than on weekdays which could be associated to the use of wood burning for recreational purposes or higher space heat demand when inhabitants spend longer time at home. It has been shown that continuous aerosol particle number size distribution measurements successfully provided source apportionment of atmospheric aerosol with high temporal resolution. The first compound-specific radiocarbon analysis (CSRA) of atmospheric PAH demonstrated its potential to provide quantitative information on the RWC contribution to individual PAH. RWC accounted for a large fraction of particle number concentrations in the size range 25-606 nm (44-57%), PM10 (36-82%), PM1 (31-83%), light-absorbing carbon (40-76%) and individual PAH (71-87%) mass concentrations. These studies have demonstrated that the impact of RWC on air quality in an urban location can be very important and largely exceed the contribution of vehicle emissions during winter, particularly under very stable atmospheric conditions.

residential wood combustion

air quality

aerosols

black carbon

polycyclic aromatic hydrocarbons

particulate matter

particle size distributions

source apportionment

positive matrix factorization

compound-specific radiocarbon analysis

Earth sciences

Geovetenskap

九重火山の噴火史研究 (レビュー)

Kobayashi, Tetsuo, Nagaoka, Shinji, Okuno, Mitsuru, 小林, 哲夫, 長岡, 信治, 奥野, 充

03 1900

名古屋大学年代測定総合研究センターシンポジウム報告

Thermoluminescence age

Radiocarbon age

Eruptive History

Kuju Volcano

熱ルミネッセンス年代

放射性炭素年代

噴火史

九重火山

紀伊半島東部の霧穴（石灰岩洞窟）産哺乳類遺体の炭素14年代とその意義

Takagi, Marie, Abe, Yuji, Kashiwagi, Kenji, 高木, まりゑ, 阿部, 勇治, 柏木, 健司

03 1900

第22回名古屋大学年代測定総合研究センターシンポジウム平成21(2009)年度報告

ニホンカモシカ

炭素14年代

霧穴

石灰岩洞窟

紀伊半島

Capricornis crispus

Radiocarbon age

Kiri-ana Cave

Limestone Cave

Kii Peninsula

限外濾過調整法を用いた骨ゼラチンの^<14>C年代測定

NAKAMURA, Toshio, OMORI, Takayuki, MINAMI, Masayo, YAMAZAKI, Kana, 中村, 俊夫, 大森, 貴之, 南, 雅代, 山﨑, 香奈

03 1900

第22回名古屋大学年代測定総合研究センターシンポジウム平成21(2009)年度報告

限外濾過

骨ゼラチン

放射性炭素年代測定法

ultrafiltration

bone gelatin

radiocarbon dating

東京都東村山市下宅部遺跡から出土した漆の14C年代測定

Nakamura, Toshio, Kudo, Yuichiro, Chiba, Toshiro, Matsumoto, Kana, 中村, 俊夫, 工藤, 雄一郎, 千葉, 敏郎, 松本, 佳納

03 1900

第23回名古屋大学年代測定総合研究センターシンポジウム平成22(2010)年度報告

縄文時代

下宅部遺跡

漆

放射性炭素年代測定法

Jomon period

Simoyakebe site

Japanese lacquer

Radiocarbon dating

Compositional clues to sources and sinks of terrestrial organic matter transported to the Eurasian Arctic shelf

Karlsson, Emma

January 2015

The amount of organic carbon (OC) present in Siberian Arctic permafrost soils is estimated at twice the amount of carbon currently in the atmosphere. The shelf seas of the Arctic Ocean receive large amounts of this terrestrial OC from Eurasian Arctic rivers and from coastal erosion. Degradation of this land-derived material in the sea would result in the production of dissolved carbon dioxide and may then add to the atmospheric carbon dioxide reservoir. Observations from the Siberian Arctic suggest that transfer of carbon from land to the marine environment is accelerating. However, it is not clear how much of the transported OC is degraded and oxidized, nor how much is removed from the active carbon cycle by burial in marine sediment. Using bulk geochemical parameters, total OC, d13C and D14C isotope composition, and specific molecular markers of plant wax lipids and lignin phenols, the abundance and composition of OC was determined in both dissolved and particulate carrier phases: the colloidal OC (COC; part of the dissolved OC), particulate OC (POC), and sedimentary OC (SOC). Statistical modelling was used to quantify the relative contribution of OC sources to these phases. Terrestrial OC is derived from the seasonally thawing top layer of permafrost soil (topsoil OC) and frozen OC derived from beneath the active layer eroded at the coast, commonly identified as yedoma ice complex deposit OC (yedoma ICD-OC). These carbon pools are transported differently in the aquatic conduits. Topsoil OC was found in young DOC and POC, in the river water, and the shelf water column, suggesting long-distance transport of this fraction. The yedoma ICD-OC was found as old particulate OC that settles out rapidly to the underlying sediment and is laterally transported across the shelf, likely dispersed by bottom nepheloid layer transport or via ice rafting. These two modes of OC transport resulted in different degradation states of topsoil OC and yedoma ICD-OC. Terrestrial CuO oxidation derived biomarkers indicated a highly degraded component in the COC. In contrast, the terrestrial component of the SOC was much less degraded. In line with earlier suggestions the mineral component in yedoma ICD functions as weight and surface protection of the associated OC, which led to burial in the sediment, and limited OC degradation. The degradability of the terrestrial OC in shelf sediment was also addressed in direct incubation studies. Molecular markers indicate marine OC (from primary production) was more readily degraded than terrestrial OC. Degradation was also faster in sediment from the East Siberian Sea, where the marine contribution was higher compared to the Laptev Sea. Although terrestrial carbon in the sediment was degraded slower, the terrestrial component also contributed to carbon dioxide formation in the incubations of marine sediment. These results contribute to our understanding of the marine fate of land-derived OC from the Siberian Arctic. The mobilization of topsoil OC is expected to grow in magnitude with climate warming and associated active layer deepening. This translocated topsoil OC component was found to be highly degraded, which suggests degradation during transport and a possible contribution to atmospheric carbon dioxide. Similarly, the yedoma ICD-OC (and or old mineral soil carbon) may become a stronger source with accelerated warming, but slow degradation may limit its impact on active carbon cycling in the Siberian Shelf Seas. / <p>At the time of the doctoral defense, the following papers were unpublished and had a status as follows: Paper 3: Manuscript. Paper 4: Manuscript.</p>

organic carbon

degradation

microcosm

incubation

terrestrial biomarkers

acyl lipids

lignin phenols

radiocarbon

Eurasian Arctic shelf

East Siberian Sea

Laptev Sea

Lena River

colloidal matter

particulate matter

sedimentary matter

Mineralogia de solos e ambientes de sedimentação em manguezais do Estado de São Paulo / Soil mineralogy and sedimentary environment in mangroves of São Paulo State

Valdomiro Severino de Souza Júnior

22 February 2006

Manguezais são formados por grupos de árvores e arbustos que se desenvolvem na zona de intermarés de regiões tropicais. Este ecossistema ao se estabelecer na interface do ambiente marinho e continental, apresenta sua formação relacionada com as flutuações relativas do nível do mar quaternário, através do preenchimento dos vales dos rios, margens de lagunas e baías com sedimentos tanto de origem continental como marinha. O conhecimento da distribuição de partículas e dos minerais constituintes da assembléia mineralógica dos solos em ambiente de planícies estuarinas, auxilia na compreensão de processos de sedimentação e geoquímica dentro dos estuários. O trabalho foi realizado nos manguezais distribuídos ao longo do litoral do Estado de São Paulo, e objetivou-se caracterizar os ambientes de sedimentação de acordo com a granulometria e o processo de evolução quaternária, determinar qualitativamente e semiquantitativamente a assembléia mineralógica e estudar em detalhe os tipos de esmectitas presentes nesses solos. Para tanto foram coletadas amostras de solos de 14 manguezais nas camadas de 0-20 e 60-80cm e de sedimento em suspensão do Rio Ribeira de Iguape, além de amostras de diferentes profundidades para datações. Determinaram-se as frações, argila, silte, areia total e 5 frações da areia, foram realizadas datações 14C por cintilação líquida e AMS na fração humina da matéria orgânica e por termoluminescência em grãos de quartzo. As análises mineralógicas foram realizadas na fração silte e argila e no sedimento em suspensão através de DRX, IV, MET, MEV com microanálise, ATD e ATG, realizou-se também o teste de Greene- Kelly para identificar o tipo de esmectitas presentes nesses solos. De acordo com os resultados obtidos, concluiu-se que os solos dos manguezais do Estado de São Paulo podem apresentar diferentes texturas desde arenosa até muito argilosa, freqüentemente contêm altos teores de silte e todos têm idade holocênica, oscilando entre 410 anos A.P. e 3.700 anos; a distribuição de partículas está relacionada à morfologia atual do estuário e à natureza dos sedimentos costeiros adjacentes; a assembléia mineralógica da fração fina dos solos é constituída de pirita, nontronita, caulinita, illita, gibbsita, quartzo, feldspato, e localmente ocorrem goethita, vermiculita, biotita, halloysita e anatásio; os minerais alóctones são de origem continental e marinha; a distinção entre os cenários geomorfológicos ao longo do litoral condiciona a distribuição de minerais, e ainda foi inferido que ocorre neoformação de esmectita e de caulinita, e que o processo de oxidação de matéria orgânica nesses solos pode estar utilizando o Fe3+ da nontronita como receptor de elétrons. / Mangroves are formed by groups of trees and shrubs that develop in the intertidal zone of tropical regions. This ecosystem to establish in the interface of both marine and continental environment, present its formation related to the sea-level fluctuations during the quaternary period, where the terrigenous and marine sediments are deposited in rivers valleys, edges of lagoons and bays. The knowledge of both particle distribution and minerals constituent of soils in estuarines areas, can aid to understand the processes of sedimentation and geochemistry in this site. This study was carried out with mangroves distributed along the São Paulo State coast, and aims to characterize the sedimentary environments in accordance with grain size and process of quaternary evolution, to determine qualitatively and semiquantitatively the mineralogical assemblage and to identify the smectites types in these soils. Samples were collected from 14 mangroves soils at the layers 0-20 and 60-80cm, and also was collected sediment in suspension of the Ribeira de Iguape River, and samples of different depths for dating. The clay, silt and total sand sizes and 5 sand fractions were determined, radiocarbon dating were carried out by liquid scintillation counting and accelerator mass spectrometry in humin fraction of the soil organic matter and by thermoluminescence of quartz grains. The mineralogical analyses were carried out by XRD, FTIR, TEM, SEM, DTA and GTA in silt and clay sizes and in the sediment in suspension, also was made the Greene-Kelly test to identify the smectites type. According to the results we concluded that the mangroves soils from São Paulo State have different textures varying from sandy up to very clay, also occuring high silt contents. All the mangroves are holocenic, with ages varying from 410 yr B.P. to 3,700 yr; the particle distribution is related to the current geomorphological setting of the estuary and the origin of coastal sediments. The mineralogical assemblage is constituted of pyrite, nontronite, kaolinite, illite, biotite, gibbsite, quartz, feldspars, and locally occurs goethite, vermiculite, halloysite and anatase; the aloctones minerals are from both the terrigenous and marine origin; the difference between geomorphological settings along the coastal plain rules mineral distribution, and still it was inferred the neoformation of esmectita and kaolinite and that the process of organic matter mineralization in these soils may be using Fe3+ from nontronite as an electron acceptor.

datação radiocarbônica

ecossistema de mangue

estuário

gênese do solo

granulometria

mineralogia do solo

sedimentodologia

termoluminescência

estuary

granulometry

mangrove ecosystems

radiocarbon dating

sedimentology

soil genesis

soil mineralogy

thermoluminescence